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opencv/modules/imgproc/test/test_intersection.cpp
Tiago De Gaspari 3cf4375387
Merge pull request #19842 from gasparitiago:3.4 
Update rotatedRectangleIntersection function to calculate near to origin

* Change type used in points function from RotatedRect

In the function that sets the points of a RotatedRect, the types

should be double in order to keep the precision when dealing with
RotatedRects that are defined far from the origin.

This commit solves the problem in some assertions from
rotatedRectangleIntersection when dealing with rectangles far from
origin.

* added proper type casts

* Update rotatedRectangleIntersection function to calculate near to origin

This commit changes the rotatedRectangleIntersection function in order
to calculate the intersection of two rectangles considering that they
are shifted near the coordinates origin (0, 0).

This commit solves the problem in some assertions from
rotatedRectangleIntersection when dealing with rectangles far from
origin.

* Revert type changes in types.cpp and adequate code to c++98

* Revert unnecessary casts on types.cpp

Co-authored-by: Vadim Pisarevsky <vadim.pisarevsky@gmail.com>
2021-06-12 23:28:54 +03:00

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/*M///////////////////////////////////////////////////////////////////////////////////////
//
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//
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// copy or use the software.
//
//
// License Agreement
// For Open Source Computer Vision Library
//
// Copyright (C) 2000-2008, Intel Corporation, all rights reserved.
// Copyright (C) 2008-2011, Willow Garage Inc., all rights reserved.
// Third party copyrights are property of their respective owners.
//
// @Authors
// Nghia Ho, nghiaho12@yahoo.com
//
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// indirect, incidental, special, exemplary, or consequential damages
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//M*/
#include "test_precomp.hpp"
namespace opencv_test { namespace {
#define ACCURACY 0.00001
// See pics/intersection.png for the scenarios we are testing
// Test the following scenarios:
// 1 - no intersection
// 2 - partial intersection, rectangle translated
// 3 - partial intersection, rectangle rotated 45 degree on the corner, forms a triangle intersection
// 4 - full intersection, rectangles of same size directly on top of each other
// 5 - partial intersection, rectangle on top rotated 45 degrees
// 6 - partial intersection, rectangle on top of different size
// 7 - full intersection, rectangle fully enclosed in the other
// 8 - partial intersection, rectangle corner just touching. point contact
// 9 - partial intersection. rectangle side by side, line contact
static void compare(const std::vector<Point2f>& test, const std::vector<Point2f>& target)
{
ASSERT_EQ(test.size(), target.size());
ASSERT_TRUE(test.size() < 4 || isContourConvex(test));
ASSERT_TRUE(target.size() < 4 || isContourConvex(target));
for( size_t i = 0; i < test.size(); i++ )
{
double r = sqrt(normL2Sqr<double>(test[i] - target[i]));
ASSERT_LT(r, ACCURACY);
}
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_1)
{
// no intersection
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 12.0f);
RotatedRect rect2(Point2f(10, 10), Size2f(2, 2), 34.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_NONE);
CV_Assert(vertices.empty());
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_2)
{
// partial intersection, rectangles translated
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(1, 1), Size2f(2, 2), 0.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
vector<Point2f> targetVertices(4);
targetVertices[0] = Point2f(1.0f, 0.0f);
targetVertices[1] = Point2f(1.0f, 1.0f);
targetVertices[2] = Point2f(0.0f, 1.0f);
targetVertices[3] = Point2f(0.0f, 0.0f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_3)
{
// partial intersection, rectangles rotated 45 degree on the corner, forms a triangle intersection
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(1, 1), Size2f(sqrt(2.0f), 20), 45.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
vector<Point2f> targetVertices(3);
targetVertices[0] = Point2f(1.0f, 0.0f);
targetVertices[1] = Point2f(1.0f, 1.0f);
targetVertices[2] = Point2f(0.0f, 1.0f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_4)
{
// full intersection, rectangles of same size directly on top of each other
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(0, 0), Size2f(2, 2), 0.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_FULL);
vector<Point2f> targetVertices(4);
targetVertices[0] = Point2f(-1.0f, 1.0f);
targetVertices[1] = Point2f(-1.0f, -1.0f);
targetVertices[2] = Point2f(1.0f, -1.0f);
targetVertices[3] = Point2f(1.0f, 1.0f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_5)
{
// partial intersection, rectangle on top rotated 45 degrees
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(0, 0), Size2f(2, 2), 45.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
vector<Point2f> targetVertices(8);
targetVertices[0] = Point2f(-1.0f, -0.414214f);
targetVertices[1] = Point2f(-0.414214f, -1.0f);
targetVertices[2] = Point2f(0.414214f, -1.0f);
targetVertices[3] = Point2f(1.0f, -0.414214f);
targetVertices[4] = Point2f(1.0f, 0.414214f);
targetVertices[5] = Point2f(0.414214f, 1.0f);
targetVertices[6] = Point2f(-0.414214f, 1.0f);
targetVertices[7] = Point2f(-1.0f, 0.414214f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_6)
{
// 6 - partial intersection, rectangle on top of different size
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(0, 0), Size2f(2, 10), 0.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
vector<Point2f> targetVertices(4);
targetVertices[0] = Point2f(-1.0f, -1.0f);
targetVertices[1] = Point2f(1.0f, -1.0f);
targetVertices[2] = Point2f(1.0f, 1.0f);
targetVertices[3] = Point2f(-1.0f, 1.0f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_7)
{
// full intersection, rectangle fully enclosed in the other
RotatedRect rect1(Point2f(0, 0), Size2f(12.34f, 56.78f), 0.0f);
RotatedRect rect2(Point2f(0, 0), Size2f(2, 2), 0.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_FULL);
vector<Point2f> targetVertices(4);
targetVertices[0] = Point2f(-1.0f, 1.0f);
targetVertices[1] = Point2f(-1.0f, -1.0f);
targetVertices[2] = Point2f(1.0f, -1.0f);
targetVertices[3] = Point2f(1.0f, 1.0f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_8)
{
// intersection by a single vertex
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(2, 2), Size2f(2, 2), 0.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
compare(vertices, vector<Point2f>(1, Point2f(1.0f, 1.0f)));
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_9)
{
// full intersection, rectangle fully enclosed in the other
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(2, 0), Size2f(2, 123.45f), 0.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
vector<Point2f> targetVertices(2);
targetVertices[0] = Point2f(1.0f, -1.0f);
targetVertices[1] = Point2f(1.0f, 1.0f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_10)
{
// three points of rect2 are inside rect1.
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(0, 0.5), Size2f(1, 1), 45.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
vector<Point2f> targetVertices(5);
targetVertices[0] = Point2f(0.207107f, 1.0f);
targetVertices[1] = Point2f(-0.207107f, 1.0f);
targetVertices[2] = Point2f(-0.707107f, 0.5f);
targetVertices[3] = Point2f(0.0f, -0.207107f);
targetVertices[4] = Point2f(0.707107f, 0.5f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_11)
{
RotatedRect rect1(Point2f(0, 0), Size2f(4, 2), 0.0f);
RotatedRect rect2(Point2f(0, 0), Size2f(2, 2), -45.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
vector<Point2f> targetVertices(6);
targetVertices[0] = Point2f(-0.414214f, -1.0f);
targetVertices[1] = Point2f(0.414213f, -1.0f);
targetVertices[2] = Point2f(1.41421f, 0.0f);
targetVertices[3] = Point2f(0.414214f, 1.0f);
targetVertices[4] = Point2f(-0.414213f, 1.0f);
targetVertices[5] = Point2f(-1.41421f, 0.0f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_12)
{
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(0, 1), Size2f(1, 1), 0.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
vector<Point2f> targetVertices(4);
targetVertices[0] = Point2f(-0.5f, 1.0f);
targetVertices[1] = Point2f(-0.5f, 0.5f);
targetVertices[2] = Point2f(0.5f, 0.5f);
targetVertices[3] = Point2f(0.5f, 1.0f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_13)
{
RotatedRect rect1(Point2f(0, 0), Size2f(1, 3), 0.0f);
RotatedRect rect2(Point2f(0, 1), Size2f(3, 1), 0.0f);
vector<Point2f> vertices;
int ret = rotatedRectangleIntersection(rect1, rect2, vertices);
CV_Assert(ret == INTERSECT_PARTIAL);
vector<Point2f> targetVertices(4);
targetVertices[0] = Point2f(-0.5f, 0.5f);
targetVertices[1] = Point2f(0.5f, 0.5f);
targetVertices[2] = Point2f(0.5f, 1.5f);
targetVertices[3] = Point2f(-0.5f, 1.5f);
compare(vertices, targetVertices);
}
TEST(Imgproc_RotatedRectangleIntersection, accuracy_14)
{
const int kNumTests = 100;
const float kWidth = 5;
const float kHeight = 5;
RotatedRect rects[2];
std::vector<Point2f> inter;
cv::RNG& rng = cv::theRNG();
for (int i = 0; i < kNumTests; ++i)
{
for (int j = 0; j < 2; ++j)
{
rects[j].center = Point2f(rng.uniform(0.0f, kWidth), rng.uniform(0.0f, kHeight));
rects[j].size = Size2f(rng.uniform(1.0f, kWidth), rng.uniform(1.0f, kHeight));
rects[j].angle = rng.uniform(0.0f, 360.0f);
}
int res = rotatedRectangleIntersection(rects[0], rects[1], inter);
EXPECT_TRUE(res == INTERSECT_NONE || res == INTERSECT_PARTIAL || res == INTERSECT_FULL) << res;
ASSERT_TRUE(inter.size() < 4 || isContourConvex(inter)) << inter;
}
}
TEST(Imgproc_RotatedRectangleIntersection, regression_12221_1)
{
RotatedRect r1(
Point2f(259.65081787109375, 51.58895492553711),
Size2f(5487.8779296875, 233.8921661376953),
-29.488616943359375);
RotatedRect r2(
Point2f(293.70465087890625, 112.10154724121094),
Size2f(5487.8896484375, 234.87368774414062),
-31.27001953125);
std::vector<Point2f> intersections;
int interType = cv::rotatedRectangleIntersection(r1, r2, intersections);
EXPECT_EQ(INTERSECT_PARTIAL, interType);
EXPECT_LE(intersections.size(), (size_t)8);
}
TEST(Imgproc_RotatedRectangleIntersection, regression_12221_2)
{
RotatedRect r1(
Point2f(239.78500366210938, 515.72021484375),
Size2f(70.23420715332031, 39.74684524536133),
-42.86162567138672);
RotatedRect r2(
Point2f(242.4205322265625, 510.1195373535156),
Size2f(66.85948944091797, 61.46455383300781),
-9.840961456298828);
std::vector<Point2f> intersections;
int interType = cv::rotatedRectangleIntersection(r1, r2, intersections);
EXPECT_EQ(INTERSECT_PARTIAL, interType);
EXPECT_LE(intersections.size(), (size_t)8);
}
TEST(Imgproc_RotatedRectangleIntersection, regression_18520)
{
RotatedRect rr_empty(
Point2f(2, 2),
Size2f(0, 0), // empty
0);
RotatedRect rr(
Point2f(50, 50),
Size2f(4, 4),
0);
{
std::vector<Point2f> intersections;
int interType = cv::rotatedRectangleIntersection(rr_empty, rr, intersections);
EXPECT_EQ(INTERSECT_NONE, interType) << "rr_empty, rr";
EXPECT_EQ((size_t)0, intersections.size()) << "rr_empty, rr";
}
{
std::vector<Point2f> intersections;
int interType = cv::rotatedRectangleIntersection(rr, rr_empty, intersections);
EXPECT_EQ(INTERSECT_NONE, interType) << "rr, rr_empty";
EXPECT_EQ((size_t)0, intersections.size()) << "rr, rr_empty";
}
}
TEST(Imgproc_RotatedRectangleIntersection, regression_19824)
{
RotatedRect r1(
Point2f(246805.033f, 4002326.94f),
Size2f(26.40587f, 6.20026f),
-62.10156f);
RotatedRect r2(
Point2f(246805.122f, 4002326.59f),
Size2f(27.4821f, 8.5361f),
-56.33761f);
std::vector<Point2f> intersections;
int interType = cv::rotatedRectangleIntersection(r1, r2, intersections);
EXPECT_EQ(INTERSECT_PARTIAL, interType);
EXPECT_LE(intersections.size(), (size_t)7);
}
}} // namespace
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